Effect of casting solvent, film-forming agent and solubilizer on orodispersible films of a polymorphic poorly soluble drug: an in vitro/in silico study

Abstract

In the current work, a full factorial experimental design was utilized to formulate piroxicam into orodispersible films while investigating the effects of some formulation factors on the properties of the resulting films. These factors were (A) the casting solvent: water and acetone/water mixture; (B) the film-forming agent: HPMC K4M and Na-alginate; (C) the solubilization system: no solubilizer, L-arginine, poloxamer and L-arginine/poloxamer mixture. Sixteen formulation runs were prepared by solvent casting method to obtain 10 mg piroxicam dosage units. Drug particle size in the prepared formulations and dissolution efficiency at 30 min were selected as responses variables. Additionally, the prepared films from each formulation were evaluated for other characters as drug content, thickness, residual water…etc. A selected formulation was then evaluated for its in vivo disintegration, palatability and stability. Utilizing acetone in the casting solution, Na-alginate as film-forming agent or both of them resulted in formation of films with larger drug particles and slower dissolution. Combined use of L-arginine and poloxamer showed better drug dissolution than using each alone. HPMC was more favorable than Na-alginate regarding mechanical properties and moisture absorption. Films from the selected formulation showed fast in vivo disintegration and acceptable palatability. These films were stable for 6 months under accelerated storage conditions. According to the computer simulation using GastroPlus™, the in vitro/in vivo behavior of piroxicam in the tested formulation was similar to that of an immediate-release formulation containing BCS class I drug. The selected formulation is therefore would satisfy the WHO perquisites for applying the biowaiver.

Keywords:

• Piroxicam
• poorly soluble
• pH modification
• solid dispersion
• in silico
• GastroplusTM
• biosimulation
• biowaiver

Disclosure statement

No potential conflict of interest was reported by the authors.